DE208797C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- .Jn 208797-CLASS 21 a. GROUP

Addition to the patent 182054 of March 23 , 190.6.

Patented in the German Empire on June 30, 1908. Longest duration: March 22, 1921.

Facilities have already become known through the main patent that allow any number of branched circuits through a limited number of switches to dominate. In this case, devices are used to eliminate bypasses, which only allow the current to flow in one direction let pass while they do not allow passage in the other direction. '

. Electrolytic cells with an aluminum electrode serve as such a device. Using These so-called valve cells, however, have the disadvantage that the current flowing through the cells should be interrupted, but first of all comes about. He then hears only after a certain, albeit very short, period of time. This appearance is based on the fact that an insulating layer is initially formed within the valve cells must form the aluminum, which brings about the interruption of the current. Although the resulting current surges are small, but can, especially if there are several add up such current surges in a conductor, an unintended effect of the same occur. This disadvantage is particularly noticeable when the equipment of this type auxiliary switches used are particularly sensitive. Such a great sensitivity on the other hand, this switch is necessary when the device z. B. for striking a keyboard is to be used by means of a perforated tape. The mentioned auxiliary switches are used in the manner of Art a telegraph relay and have to work particularly quickly. It just takes place in those branches of the circuit in which the auxiliary switch coils are located, often one Summing up of the current surges mentioned takes place, so that the valve cells are no longer completely safe works. The auxiliary switches can then be closed without the main switch, with which they are connected, thereby causing malfunctions in the circuit device.

The present invention now has the purpose of eliminating the unintended effect of the aforementioned power surges. . This is achieved in that the coils of the auxiliary switches are provided with two windings. This counteracts those auxiliary switches whose activity is not intended, so that the excitation of the electromagnets does not take place. The new arrangement is shown schematically in associated FIGS. 1 and 2 of the drawing. Both figures each represent a part of the entire arrangement, in such a way that they can be joined together with the dotted lines AA or BB and then show the circuit device as a whole. The part lying between AA and BB thus appears both in FIG. 1 and in FIG. 2.

In the example shown, it is assumed that eleven are to be moved immediately Switching devices (main switch) are available. With the help of these switching devices 55 different combinations of the circuit can optionally be closed. This is done by relocating only two main switches at the same time. There are also ten auxiliary switches, or, generally speaking, one less than the number of main switches. Lines emanate from these, in which except for a work facility to be operated by the electric current, here briefly called electromagnet, a valve cell or other device for shutting off the Current in the wrong direction is included. Should be the number of stream branches be even larger, which are closed individually by operating two main switches the number of main and auxiliary switches must be increased accordingly.

Here α is the current source, from whose positive pole a line b leads to the main switches C ₁ to C ₁₁ . Lines d ₁ to d _{n are also connected} to this main switch. The line d _x leads directly to a line i _v. The lines d ₂ to ^ ₁₁ lead to the coils of the auxiliary switches e ₂ to e _n . The auxiliary switch e _n has only one coil Z ₁₁ , the second line end of which is connected to the line .h leading back to the power source. The auxiliary switches e ₂ to e ₁₀ each have two coils / ₂ to f ₁₀ and g ₂ to ^ ₁₀ . Both coils f and g of an auxiliary switch are connected to one another; One of the lines d ₂ to d ₁₀ provided with the corresponding designation in the figures leads to the connection point of the two coils . The free ends of all the coils f are connected to the line ' h , which leads to the negative pole of the current source α . The free ends of the coils g are each connected to a special line i ₂ to i ₁₀ . The lines i _r to J ₁₀ lead to the groups of electromagnets or equivalent other devices W ₁ to -W ₆₅ , which are excited by the electric current. The branches in which these electromagnets W ₁ to W ₅₅ are located must now also accommodate the valve cells Wi ₁ to W ₆₈ .

The lever of the switch e ₂ to e _n are with .dem a switch pole, z. B. the pivot point of the lever, connected to a line k , which leads together with the line h to the negative pole of the power source. The other switch pole, ie the contact opposite the free end of the switch lever, is connected to one of the lines Z ₂ to Z ₁₁ . These lines branch off and lead to the valve cells m _x to W ₅₅ and further to the electromagnets W ₁ to W ₅₅ .

If any two of the switches C ₁ to C ₁₁ are now closed, only one of the electromagnets W ₁ to W _{55 may} receive current, in accordance with the purpose of the apparatus. It must therefore be possible to select and excite any one of the electromagnets W ₁ to W ₆₆ by means of a suitable connection of two switches C ₁ to C _11. This effect would be readily available if the valve cells immediately and completely suppressed any current flowing in the wrong direction in the electromagnets W ₁ to W _55. However, as already mentioned y-this is not the case. Rather, when it is switched on for the first time, there is a short current surge in each cell. The electromagnets W ₁ to W ₆₅ can easily be made so insensitive that they do not respond to these short current surges. In contrast, the auxiliary switches e ₂ to e _{u must have} a relatively high sensitivity; Their coils are also traversed in certain cases by the sum of several current impulses.

With the arrangement described here, however, an unintended effect of the auxiliary switch does not occur. Is z. If, for example, the main switch C _{4 is} closed, a current first flows via the line d _i to the coil f _t . and from there through line h to the power source. Since only coil / ₄ receives current for the time being, the switch is moved and closes the connection between line k and line Z ₄ . At the same time, the line i ₄ is also connected to the positive pole of the current source α . In this way, the electromagnets W ₂₂ to W _{28 are} connected to the positive pole and the electromagnets W ₃₆ , W ₄₄ and W _{53 are} connected to the negative pole of the power source. Through the electromagnets W ₂₂ to W _2S , the lines Z ₅ to Z _{11 are also} connected to the positive pole. On the _{other hand, the following connections lead from lines Z 5} to Z ₁₁ to the negative pole of the power source:

From line Z via electromagnet W ₃₆ to line i ₃ via coils g ₃ and / ₃ and line h; from line Z ₆ via electromagnet W ₃₄ , line i ₃ , coils g ₃ and f ₃ and line h ; from the line Z ₇ via the electromagnet W ₃₃ , line i ₃ , coils g ₃ and / ₃ and line h. In a similar way, such connections come about via the lines i _z and the coils g ₃ and / ₃ through the electromagnets W ₂₉ to W ₃₂ . In the branches. W ₂₉ to W ₃₅ , however, the electric current flows in the opposite direction through the valve cells, so that only short current surges occur. The summation of the current impulses in the coil f ₃ could

if the switch e _{s are put} into action. . In order to prevent this, the coil g ₃ is now switched on so that it lies between the line i ₃ and the coil f ₃ , and thus all current surges flowing through the coil f _s flow through it. A branching of the current surges between the two coils cannot take place. If both coils are now wound in opposite directions and have the same number of turns, their effect on switch e _{3 is} canceled out, so that the current surges are not able to activate the switch. In the same way, current surges occur across other auxiliary holding coils. But since they must flow through both coils g and f in each case, they can have an effect on the auxiliary switch. not exercise. If one of the auxiliary switches is to be activated, the corresponding main switch must be closed. In this case either only the coil / from the current '

- traversed, whereby the switch is activated, or both coils are traversed by the current, the current then flows in the sink g opposite to the current surges caused by the defective action of the valve cell, so that the coils f and g in the same Senses act on the switch and put it into action.

If,. As assumed above, only one of the main switches c is closed, then none of the electromagnets W ₁ to W _{55 come} into operation. 'As assumed, this should only take place if two switches c, e.g. B. e ₃ and C ₆ are closed. In this case, the two auxiliary switches 'e' and e also come into play. in action. There are then the lines i ₃ and i ₆ .with the positive pole of the current source a

■ connected, while the lines I ₃ and I ₆ - are connected to the negative pole. In this way, the electromagnet W _{31 is} connected to the two poles of the power source and the current flows through it. Through the branches W ₁₁ to W ₁₅ on the line i ₆ as well as through the branches W ₂₉ to n _3% and w _3ä to W ₃₆ , shunts occur in turn, which result in current impulses flowing through some of the auxiliary holding coils f and g. However, these work together. 50 did not lend current surges to the corresponding switches because they flow through both coils g and f in such a way that their effect on the switch is canceled. In the switch e ₃ , the coil f is traversed as usual by the current which is intended to activate the switch, and at the same time the coil g is traversed by the current which excites _{the electromagnet W 34.} In the coil g , this current flows in the opposite direction to the current impulses mentioned. Since both coils f ₃ and g _{3 of} this switch consequently act in the same sense, they increase their effect on the switch e _s . With the switch e _e only the coil f ₆ is traversed by the current, while the coil g _ß remains de-energized. However, the action of the coil / ₆ is sufficient to close the switch.

The switch e _n has only one coil, since only the coil J _{11 is} connected to the line d _n , but none of the lines i. A coil g is not switched on in the line ä _x or i _x , since no auxiliary switch e comes into contact with the main switch C _1.

In the circuit arrangement described, the position of the poles of the current source is determined by the direction of the current in the valve cells. However, both can also be interchanged at will be if the swap at the same time both at the power source and at all valve cells is made.

Claims (1)

Pate nt-An s PRU c η: Circuit device for closing any branch of a multiply branched one Circuit by means of a limited number of switches according to patent 182054 with the help of so-called. Valve cells, with a series of main switches a series of auxiliary switches is connected in such a way that when a main switch is closed, a specific auxiliary switch is also automatically activated is closed, characterized in that the auxiliary switch on the electromagnet two coil windings' are attached, of which ■ the main winding for Movement of the auxiliary switch is used and in the manner indicated in the main patent is connected to the main switches, while the auxiliary winding has the same number of turns how the main winding has and is switched on in such a way that. by insufficient effect of the valve cells resulting shunt currents flow through both coils of an auxiliary switch one behind the other, but as a result of the opposite one The winding direction of both windings does not affect the auxiliary switch. . 1 sheet of drawings.